Ms. Sakshi Gupta
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Ms. Sakshi Gupta

Assistant Professor
Amity University, India

Highest Degree
Ph.D. Student in Construction Technology and Management from Indian Institute of Technology, India

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Biography

Ms. Sakshi Gupta, is an Assistant Professor in Civil Engineering Department, ASET, Amity University, Haryana. She has over 20 research papers and has attended various conferences and workshops. She is the member of reviewer as well as editorial boards of various journals. Her area of interest includes nanotechnology in concrete,ANN and Fuzzy Logic in Civil engineering using softwares,Use of Nano Silica, Micro Silica and Silica fume in Concrete, Sustainable development of concrete using waste materials, smart engineering materials and green technology in construction.

Area of Interest:

Engineering
100%
Sustainable Construction
62%
Structural Engineering
90%
Management Engineering
75%
Construction Technology
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Gupta, S., 2018. Elementary Geotechnical Engineering. Lambert Academic Publishing, Germany, ISBN-13: 978-613-9-83053-4, Pages: 240.
  2. Suthar, G., R. Singh, R.K. Malik and S. Gupta, 2017. Groundwater contamination from landfill leachates-an analysis for developing countries. Open Access Int. J. Sci. Eng., 2: 89-94.
  3. Sharma, P., S. Gupta and L. Kumar, 2017. Identifying and assessing the usefulness and validity of 6D and 7D BIM in construction practices. Int. J. Construction Eng. Plann., 3: 1-10.
  4. Sharma, P., S. Gupta and L. Kumar, 2017. A critical appraisal of integrating 4D and 5D BIM into construction practice. J. Adv. Res. Civil Environ. Eng., 4: 1-8.
  5. Gupta, S., Aakash, A. Ramola, J. Arora and A. Saini, 2017. Partial replacement of cement by flyash & glass fibre in light weight fibre reinforced concrete. Int. J. Eng. Res. Technol., 6: 24-29.
  6. Gupta, S., Aakash, A. Ramola, A. Saini and J. Arora, 2017. Glass fibre reinforced concrete for construction-a review. Int. J. Adv. Eng. Res. Dev., 4: 107-114.
  7. Gupta, S., 2017. Properties of Mortar with Nano-Silica of Varying Particle Size. Lambert Academic Publishing, Germany, ISBN-13: 978-3330323100, Pages: 128.
  8. Gupta, S., 2017. A critical evaluation of the role of micro silica and nano silica in cementitious materials. Int. J. Recent Dev. Civil Environ. Eng., 3: 1-13.
  9. Gupta, S. and D. Garg, 2017. Using GA to predict the compressive strength of concrete containing nano-silica. Int. J. Eng. Sci. Manage., 7: 37-43.
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  10. Gupta, S. and A. Batra, 2017. A Critical Appraisal of the Air-Entrainment In Concrete. Int. J. Adv. Res. Innovative Ideas Edu., 3: 269-276.
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  11. Firdous, M. and S. Gupta, 2017. A critical evaluation of the effect of soft storey and column orientation on RC buildings. Int. J. Sci. Technol. Eng., 3: 44-47.
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  12. Dantre, A. and S. Gupta, 2017. Characterization of leachate from selected landfills and its effects on groundwater resources -a review. Open Access Int. J. Sci. Eng., 2: 69-74.
  13. Ahady, S., S. Gupta and R.K. Malik, 2017. A study of the causes of cost overrun in construction industry in Afghanistan. Int. J. Eng. Dev. Res., 5: 978-985.
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  14. Ahady, S., S. Gupta and R.K. Malik, 2017. A critical review of the causes of cost overrun in construction industries in developing countries. Int. Res. J. Eng. Technol., 4: 2550-2558.
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  15. Sharma, P. and S. Gupta, 2016. The Urban Form of Indian Cities and Outline of Indian Urbanization: A Multidisciplinary Approach. Int. J. Adv. Res. Innovative Ideas Edu., 2: 1378-1387.
  16. Sharma, P. and S. Gupta, 2016. The Delineation of Housing Development in India Conjugated with Acute Housing Crisis: A Rational Approach. Int. J. Adv. Res. Innovative Ideas Edu., 2: 1368-1377.
  17. Sharma, P. and S. Gupta, 2016. Probing Risk and Vulnerability towards Natural Disaster: A Study Upholding Disaster Pliant Culture. Int. J. Adv. Res. Found., 3: 9-16.
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  18. Sharma, P. and S. Gupta, 2016. Passive Solar Technique Using Trombe Wall - A Sustainable Approach. J. Mech. Civil Eng., 1: 77-82.
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  19. Sharma, P. and S. Gupta, 2016. Impact of Real Estate Bill on Buyers and Realty Market. Civil Eng. Constr. Rev., 29: 112-116.
  20. Sharma, P. and S. Gupta, 2016. Applicability of Building Information Modeling (BIM) in Indian Built Environment Sector. Am. J. Eng. Technol. Manage., 1: 30-37.
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  21. Gupta, S., 2016. A Review on the use of Micro-silica and Nano-silica in SCC. New Build. Mater. Constr. World, 22: 131-137.
  22. Gupta, S. and P. Sharma, 2016. The Concernment of Competent Project Portfolio Management for Enterprise Success. Global Res. Dev. J. Eng., 1: 12-19.
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  23. Gupta, S. and K. Grover, 2016. Flexural Capacity of Composite Beams (Steel & Concrete) - A Review. J. Mech. Civil Eng., 1: 66-72.
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  24. Gupta, S. and A. Batra, 2016. A Critical Appraisal of the Properties of SCC With Blended Cement. Int. J. Adv. Res. Innovative Ideas Edu., 2: 2510-2521.
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  25. Ahady, S. and S. Gupta, 2016. Use of bottom ash as fine aggregate in concrete: a review. Int. J. Adv. Res. Innovative Ideas Edu., 2: 203-212.
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  26. Gupta, S., 2015. Use of triangular membership function for prediction of compressive strength of concrete containing nanosilica. Cogent Eng., 10.1080/23311916.2015.1025578.
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  27. Gupta, S., 2015. Use of nano-silica in cement based materials-A review. New Build. Mater. Constr. World, 10.1080/23311916.2015.1078018.
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  28. Gupta, S., 2015. Bacterial concrete: Eco-friendly & sustainable material. New Build. Mater. Constr. World, 21: 202-209.
  29. Gupta, S., 2014. Using fuzzy logic approach to find the compressive strength of concrete. Res. Civil Environ. Eng., 2: 120-132.
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  30. Gupta, S., 2014. Identifying and managing vital risks in construction projects. New Build. Mater. Constr. World, 19: 152-159.
  31. Gupta, S., 2014. Design of beam using artificial neural network based approach. Recent Trends Civil Eng. Technol., 4: 1-6.
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  32. Gupta, S., 2014. A review on the use of nano-silica in cementitious compositions. Int. J. Concr. Technol., 1: 1-15.
  33. Gupta, S., 2013. Using artificial neural network to predict the compressive strength of concrete containing nano-silica. Civil Eng. Archit., 1: 96-102.
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  34. Gupta, S., 2013. Sustainable utilization of bottom ash and foundry sand in cementations composition: Review. Res. Civil Environ. Eng., 1: 275-287.
  35. Gupta, S., 2013. Prediction of compressive strength and slump of concrete using artificial neural network modeling. Res. Civil Environ. Eng., 1: 177-186.
  36. Gupta, S., 2013. Concrete mix design using artificial neural network. J. Today's Ideas-Tomorrow's Technol., 1: 29-43.
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  37. Gupta, S., 2013. Application of silica fume and nanosilica in cement and concrete - A review. J. Today's Ideas Tomorrow's Technol., 1: 85-98.
  38. Aggarwal, P., Y. Aggarwal, R. Siddique, S. Gupta and H. Garg, 2013. Fuzzy logic modeling of compressive strength of high-strength concrete (HSC) with supplementary cementitious material. J. Sustainable Cem. Based Mater., 2: 128-143.
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